/* $TOG: miwideline.c /main/60 1998/03/07 17:40:23 kaleb $ */ /* Copyright 1988, 1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* $XFree86: xc/programs/Xserver/mi/miwideline.c,v 1.6 1999/04/11 13:11:21 dawes Exp $ */ /* Author: Keith Packard, MIT X Consortium */ /* * Mostly integer wideline code. Uses a technique similar to * bresenham zero-width lines, except walks an X edge */ #include #ifdef _XOPEN_SOURCE #include #else #define _XOPEN_SOURCE /* to get prototype for hypot on some systems */ #include #undef _XOPEN_SOURCE #endif #include "X.h" #include "windowstr.h" #include "gcstruct.h" #include "miscstruct.h" #include "miwideline.h" #include "mi.h" #ifdef ICEILTEMPDECL ICEILTEMPDECL #endif static void miLineArc(); /* * spans-based polygon filler */ void miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, overall_height, left, right, left_count, right_count) DrawablePtr pDrawable; GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; int y; /* start y coordinate */ int overall_height; /* height of entire segment */ PolyEdgePtr left, right; int left_count, right_count; { register int left_x = 0, left_e = 0; int left_stepx = 0; int left_signdx = 0; int left_dy = 0, left_dx = 0; register int right_x = 0, right_e = 0; int right_stepx = 0; int right_signdx = 0; int right_dy = 0, right_dx = 0; int height = 0; int left_height = 0, right_height = 0; register DDXPointPtr ppt; DDXPointPtr pptInit; register int *pwidth; int *pwidthInit; XID oldPixel; int xorg; Spans spanRec; left_height = 0; right_height = 0; if (!spanData) { pptInit = (DDXPointPtr) ALLOCATE_LOCAL (overall_height * sizeof(*ppt)); if (!pptInit) return; pwidthInit = (int *) ALLOCATE_LOCAL (overall_height * sizeof(*pwidth)); if (!pwidthInit) { DEALLOCATE_LOCAL (pptInit); return; } ppt = pptInit; pwidth = pwidthInit; oldPixel = pGC->fgPixel; if (pixel != oldPixel) { DoChangeGC (pGC, GCForeground, (XID *)&pixel, FALSE); ValidateGC (pDrawable, pGC); } } else { spanRec.points = (DDXPointPtr) xalloc (overall_height * sizeof (*ppt)); if (!spanRec.points) return; spanRec.widths = (int *) xalloc (overall_height * sizeof (int)); if (!spanRec.widths) { xfree (spanRec.points); return; } ppt = spanRec.points; pwidth = spanRec.widths; } xorg = 0; if (pGC->miTranslate) { y += pDrawable->y; xorg = pDrawable->x; } while ((left_count || left_height) && (right_count || right_height)) { MIPOLYRELOADLEFT MIPOLYRELOADRIGHT height = left_height; if (height > right_height) height = right_height; left_height -= height; right_height -= height; while (--height >= 0) { if (right_x >= left_x) { ppt->y = y; ppt->x = left_x + xorg; ppt++; *pwidth++ = right_x - left_x + 1; } y++; MIPOLYSTEPLEFT MIPOLYSTEPRIGHT } } if (!spanData) { (*pGC->ops->FillSpans) (pDrawable, pGC, ppt - pptInit, pptInit, pwidthInit, TRUE); DEALLOCATE_LOCAL (pwidthInit); DEALLOCATE_LOCAL (pptInit); if (pixel != oldPixel) { DoChangeGC (pGC, GCForeground, &oldPixel, FALSE); ValidateGC (pDrawable, pGC); } } else { spanRec.count = ppt - spanRec.points; AppendSpanGroup (pGC, pixel, &spanRec, spanData) } } static void miFillRectPolyHelper (pDrawable, pGC, pixel, spanData, x, y, w, h) DrawablePtr pDrawable; GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; int x, y, w, h; { register DDXPointPtr ppt; register int *pwidth; XID oldPixel; Spans spanRec; xRectangle rect; if (!spanData) { rect.x = x; rect.y = y; rect.width = w; rect.height = h; oldPixel = pGC->fgPixel; if (pixel != oldPixel) { DoChangeGC (pGC, GCForeground, (XID *)&pixel, FALSE); ValidateGC (pDrawable, pGC); } (*pGC->ops->PolyFillRect) (pDrawable, pGC, 1, &rect); if (pixel != oldPixel) { DoChangeGC (pGC, GCForeground, &oldPixel, FALSE); ValidateGC (pDrawable, pGC); } } else { spanRec.points = (DDXPointPtr) xalloc (h * sizeof (*ppt)); if (!spanRec.points) return; spanRec.widths = (int *) xalloc (h * sizeof (int)); if (!spanRec.widths) { xfree (spanRec.points); return; } ppt = spanRec.points; pwidth = spanRec.widths; if (pGC->miTranslate) { y += pDrawable->y; x += pDrawable->x; } while (h--) { ppt->x = x; ppt->y = y; ppt++; *pwidth++ = w; y++; } spanRec.count = ppt - spanRec.points; AppendSpanGroup (pGC, pixel, &spanRec, spanData) } } /* static */ int miPolyBuildEdge (x0, y0, k, dx, dy, xi, yi, left, edge) double x0, y0; double k; /* x0 * dy - y0 * dx */ register int dx, dy; int xi, yi; int left; register PolyEdgePtr edge; { int x, y, e; int xady; if (dy < 0) { dy = -dy; dx = -dx; k = -k; } #ifdef NOTDEF { double realk, kerror; realk = x0 * dy - y0 * dx; kerror = Fabs (realk - k); if (kerror > .1) printf ("realk: %g k: %g\n", realk, k); } #endif y = ICEIL (y0); xady = ICEIL (k) + y * dx; if (xady <= 0) x = - (-xady / dy) - 1; else x = (xady - 1) / dy; e = xady - x * dy; if (dx >= 0) { edge->signdx = 1; edge->stepx = dx / dy; edge->dx = dx % dy; } else { edge->signdx = -1; edge->stepx = - (-dx / dy); edge->dx = -dx % dy; e = dy - e + 1; } edge->dy = dy; edge->x = x + left + xi; edge->e = e - dy; /* bias to compare against 0 instead of dy */ return y + yi; } #define StepAround(v, incr, max) (((v) + (incr) < 0) ? (max - 1) : ((v) + (incr) == max) ? 0 : ((v) + (incr))) /* static */ int miPolyBuildPoly (vertices, slopes, count, xi, yi, left, right, pnleft, pnright, h) register PolyVertexPtr vertices; register PolySlopePtr slopes; int count; int xi, yi; PolyEdgePtr left, right; int *pnleft, *pnright; int *h; { int top, bottom; double miny, maxy; register int i; int j; int clockwise; int slopeoff; register int s; register int nright, nleft; int y, lasty = 0, bottomy, topy = 0; /* find the top of the polygon */ maxy = miny = vertices[0].y; bottom = top = 0; for (i = 1; i < count; i++) { if (vertices[i].y < miny) { top = i; miny = vertices[i].y; } if (vertices[i].y >= maxy) { bottom = i; maxy = vertices[i].y; } } clockwise = 1; slopeoff = 0; i = top; j = StepAround (top, -1, count); if (slopes[j].dy * slopes[i].dx > slopes[i].dy * slopes[j].dx) { clockwise = -1; slopeoff = -1; } bottomy = ICEIL (maxy) + yi; nright = 0; s = StepAround (top, slopeoff, count); i = top; while (i != bottom) { if (slopes[s].dy != 0) { y = miPolyBuildEdge (vertices[i].x, vertices[i].y, slopes[s].k, slopes[s].dx, slopes[s].dy, xi, yi, 0, &right[nright]); if (nright != 0) right[nright-1].height = y - lasty; else topy = y; nright++; lasty = y; } i = StepAround (i, clockwise, count); s = StepAround (s, clockwise, count); } if (nright != 0) right[nright-1].height = bottomy - lasty; if (slopeoff == 0) slopeoff = -1; else slopeoff = 0; nleft = 0; s = StepAround (top, slopeoff, count); i = top; while (i != bottom) { if (slopes[s].dy != 0) { y = miPolyBuildEdge (vertices[i].x, vertices[i].y, slopes[s].k, slopes[s].dx, slopes[s].dy, xi, yi, 1, &left[nleft]); if (nleft != 0) left[nleft-1].height = y - lasty; nleft++; lasty = y; } i = StepAround (i, -clockwise, count); s = StepAround (s, -clockwise, count); } if (nleft != 0) left[nleft-1].height = bottomy - lasty; *pnleft = nleft; *pnright = nright; *h = bottomy - topy; return topy; } static void miLineOnePoint (pDrawable, pGC, pixel, spanData, x, y) DrawablePtr pDrawable; GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; int x, y; { DDXPointRec pt; int wid; unsigned long oldPixel; MILINESETPIXEL (pDrawable, pGC, pixel, oldPixel); if (pGC->fillStyle == FillSolid) { pt.x = x; pt.y = y; (*pGC->ops->PolyPoint) (pDrawable, pGC, CoordModeOrigin, 1, &pt); } else { wid = 1; if (pGC->miTranslate) { x += pDrawable->x; y += pDrawable->y; } pt.x = x; pt.y = y; (*pGC->ops->FillSpans) (pDrawable, pGC, 1, &pt, &wid, TRUE); } MILINERESETPIXEL (pDrawable, pGC, pixel, oldPixel); } static void miLineJoin (pDrawable, pGC, pixel, spanData, pLeft, pRight) DrawablePtr pDrawable; GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; register LineFacePtr pLeft, pRight; { double mx, my; double denom = 0.0; PolyVertexRec vertices[4]; PolySlopeRec slopes[4]; int edgecount; PolyEdgeRec left[4], right[4]; int nleft, nright; int y, height; int swapslopes; int joinStyle = pGC->joinStyle; int lw = pGC->lineWidth; if (lw == 1 && !spanData) { /* Lines going in the same direction have no join */ if (pLeft->dx >= 0 == pRight->dx <= 0) return; if (joinStyle != JoinRound) { denom = - pLeft->dx * (double)pRight->dy + pRight->dx * (double)pLeft->dy; if (denom == 0) return; /* no join to draw */ } if (joinStyle != JoinMiter) { miLineOnePoint (pDrawable, pGC, pixel, spanData, pLeft->x, pLeft->y); return; } } else { if (joinStyle == JoinRound) { miLineArc(pDrawable, pGC, pixel, spanData, pLeft, pRight, (double)0.0, (double)0.0, TRUE); return; } denom = - pLeft->dx * (double)pRight->dy + pRight->dx * (double)pLeft->dy; if (denom == 0.0) return; /* no join to draw */ } swapslopes = 0; if (denom > 0) { pLeft->xa = -pLeft->xa; pLeft->ya = -pLeft->ya; pLeft->dx = -pLeft->dx; pLeft->dy = -pLeft->dy; } else { swapslopes = 1; pRight->xa = -pRight->xa; pRight->ya = -pRight->ya; pRight->dx = -pRight->dx; pRight->dy = -pRight->dy; } vertices[0].x = pRight->xa; vertices[0].y = pRight->ya; slopes[0].dx = -pRight->dy; slopes[0].dy = pRight->dx; slopes[0].k = 0; vertices[1].x = 0; vertices[1].y = 0; slopes[1].dx = pLeft->dy; slopes[1].dy = -pLeft->dx; slopes[1].k = 0; vertices[2].x = pLeft->xa; vertices[2].y = pLeft->ya; if (joinStyle == JoinMiter) { my = (pLeft->dy * (pRight->xa * pRight->dy - pRight->ya * pRight->dx) - pRight->dy * (pLeft->xa * pLeft->dy - pLeft->ya * pLeft->dx )) / denom; if (pLeft->dy != 0) { mx = pLeft->xa + (my - pLeft->ya) * (double) pLeft->dx / (double) pLeft->dy; } else { mx = pRight->xa + (my - pRight->ya) * (double) pRight->dx / (double) pRight->dy; } /* check miter limit */ if ((mx * mx + my * my) * 4 > SQSECANT * lw * lw) joinStyle = JoinBevel; } if (joinStyle == JoinMiter) { slopes[2].dx = pLeft->dx; slopes[2].dy = pLeft->dy; slopes[2].k = pLeft->k; if (swapslopes) { slopes[2].dx = -slopes[2].dx; slopes[2].dy = -slopes[2].dy; slopes[2].k = -slopes[2].k; } vertices[3].x = mx; vertices[3].y = my; slopes[3].dx = pRight->dx; slopes[3].dy = pRight->dy; slopes[3].k = pRight->k; if (swapslopes) { slopes[3].dx = -slopes[3].dx; slopes[3].dy = -slopes[3].dy; slopes[3].k = -slopes[3].k; } edgecount = 4; } else { double scale, dx, dy, adx, ady; adx = dx = pRight->xa - pLeft->xa; ady = dy = pRight->ya - pLeft->ya; if (adx < 0) adx = -adx; if (ady < 0) ady = -ady; scale = ady; if (adx > ady) scale = adx; slopes[2].dx = (dx * 65536) / scale; slopes[2].dy = (dy * 65536) / scale; slopes[2].k = ((pLeft->xa + pRight->xa) * slopes[2].dy - (pLeft->ya + pRight->ya) * slopes[2].dx) / 2.0; edgecount = 3; } y = miPolyBuildPoly (vertices, slopes, edgecount, pLeft->x, pLeft->y, left, right, &nleft, &nright, &height); miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, height, left, right, nleft, nright); } static int miLineArcI (pDraw, pGC, xorg, yorg, points, widths) DrawablePtr pDraw; GCPtr pGC; int xorg, yorg; DDXPointPtr points; int *widths; { register DDXPointPtr tpts, bpts; register int *twids, *bwids; register int x, y, e, ex, slw; tpts = points; twids = widths; if (pGC->miTranslate) { xorg += pDraw->x; yorg += pDraw->y; } slw = pGC->lineWidth; if (slw == 1) { tpts->x = xorg; tpts->y = yorg; *twids = 1; return 1; } bpts = tpts + slw; bwids = twids + slw; y = (slw >> 1) + 1; if (slw & 1) e = - ((y << 2) + 3); else e = - (y << 3); ex = -4; x = 0; while (y) { e += (y << 3) - 4; while (e >= 0) { x++; e += (ex = -((x << 3) + 4)); } y--; slw = (x << 1) + 1; if ((e == ex) && (slw > 1)) slw--; tpts->x = xorg - x; tpts->y = yorg - y; tpts++; *twids++ = slw; if ((y != 0) && ((slw > 1) || (e != ex))) { bpts--; bpts->x = xorg - x; bpts->y = yorg + y; *--bwids = slw; } } return (pGC->lineWidth); } #define CLIPSTEPEDGE(edgey,edge,edgeleft) \ if (ybase == edgey) \ { \ if (edgeleft) \ { \ if (edge->x > xcl) \ xcl = edge->x; \ } \ else \ { \ if (edge->x < xcr) \ xcr = edge->x; \ } \ edgey++; \ edge->x += edge->stepx; \ edge->e += edge->dx; \ if (edge->e > 0) \ { \ edge->x += edge->signdx; \ edge->e -= edge->dy; \ } \ } static int miLineArcD (pDraw, pGC, xorg, yorg, points, widths, edge1, edgey1, edgeleft1, edge2, edgey2, edgeleft2) DrawablePtr pDraw; GCPtr pGC; double xorg, yorg; DDXPointPtr points; int *widths; PolyEdgePtr edge1, edge2; int edgey1, edgey2; Bool edgeleft1, edgeleft2; { register DDXPointPtr pts; register int *wids; double radius, x0, y0, el, er, yk, xlk, xrk, k; int xbase, ybase, y, boty, xl, xr, xcl, xcr; int ymin, ymax; Bool edge1IsMin, edge2IsMin; int ymin1, ymin2; pts = points; wids = widths; xbase = floor(xorg); x0 = xorg - xbase; ybase = ICEIL (yorg); y0 = yorg - ybase; if (pGC->miTranslate) { xbase += pDraw->x; ybase += pDraw->y; edge1->x += pDraw->x; edge2->x += pDraw->x; edgey1 += pDraw->y; edgey2 += pDraw->y; } xlk = x0 + x0 + 1.0; xrk = x0 + x0 - 1.0; yk = y0 + y0 - 1.0; radius = ((double)pGC->lineWidth) / 2.0; y = floor(radius - y0 + 1.0); ybase -= y; ymin = ybase; ymax = 65536; edge1IsMin = FALSE; ymin1 = edgey1; if (edge1->dy >= 0) { if (!edge1->dy) { if (edgeleft1) edge1IsMin = TRUE; else ymax = edgey1; edgey1 = 65536; } else { if ((edge1->signdx < 0) == edgeleft1) edge1IsMin = TRUE; } } edge2IsMin = FALSE; ymin2 = edgey2; if (edge2->dy >= 0) { if (!edge2->dy) { if (edgeleft2) edge2IsMin = TRUE; else ymax = edgey2; edgey2 = 65536; } else { if ((edge2->signdx < 0) == edgeleft2) edge2IsMin = TRUE; } } if (edge1IsMin) { ymin = ymin1; if (edge2IsMin && ymin1 > ymin2) ymin = ymin2; } else if (edge2IsMin) ymin = ymin2; el = radius * radius - ((y + y0) * (y + y0)) - (x0 * x0); er = el + xrk; xl = 1; xr = 0; if (x0 < 0.5) { xl = 0; el -= xlk; } boty = (y0 < -0.5) ? 1 : 0; if (ybase + y - boty > ymax) boty = ymax - ybase - y; while (y > boty) { k = (y << 1) + yk; er += k; while (er > 0.0) { xr++; er += xrk - (xr << 1); } el += k; while (el >= 0.0) { xl--; el += (xl << 1) - xlk; } y--; ybase++; if (ybase < ymin) continue; xcl = xl + xbase; xcr = xr + xbase; CLIPSTEPEDGE(edgey1, edge1, edgeleft1); CLIPSTEPEDGE(edgey2, edge2, edgeleft2); if (xcr >= xcl) { pts->x = xcl; pts->y = ybase; pts++; *wids++ = xcr - xcl + 1; } } er = xrk - (xr << 1) - er; el = (xl << 1) - xlk - el; boty = floor(-y0 - radius + 1.0); if (ybase + y - boty > ymax) boty = ymax - ybase - y; while (y > boty) { k = (y << 1) + yk; er -= k; while ((er >= 0.0) && (xr >= 0)) { xr--; er += xrk - (xr << 1); } el -= k; while ((el > 0.0) && (xl <= 0)) { xl++; el += (xl << 1) - xlk; } y--; ybase++; if (ybase < ymin) continue; xcl = xl + xbase; xcr = xr + xbase; CLIPSTEPEDGE(edgey1, edge1, edgeleft1); CLIPSTEPEDGE(edgey2, edge2, edgeleft2); if (xcr >= xcl) { pts->x = xcl; pts->y = ybase; pts++; *wids++ = xcr - xcl + 1; } } return (pts - points); } int miRoundJoinFace (face, edge, leftEdge) register LineFacePtr face; register PolyEdgePtr edge; Bool *leftEdge; { int y; int dx, dy; double xa, ya; Bool left; dx = -face->dy; dy = face->dx; xa = face->xa; ya = face->ya; left = 1; if (ya > 0) { ya = 0.0; xa = 0.0; } if (dy < 0 || dy == 0 && dx > 0) { dx = -dx; dy = -dy; left = !left; } if (dx == 0 && dy == 0) dy = 1; if (dy == 0) { y = ICEIL (face->ya) + face->y; edge->x = -32767; edge->stepx = 0; edge->signdx = 0; edge->e = -1; edge->dy = 0; edge->dx = 0; edge->height = 0; } else { y = miPolyBuildEdge (xa, ya, 0.0, dx, dy, face->x, face->y, !left, edge); edge->height = 32767; } *leftEdge = !left; return y; } void miRoundJoinClip (pLeft, pRight, edge1, edge2, y1, y2, left1, left2) register LineFacePtr pLeft, pRight; PolyEdgePtr edge1, edge2; int *y1, *y2; Bool *left1, *left2; { double denom; denom = - pLeft->dx * (double)pRight->dy + pRight->dx * (double)pLeft->dy; if (denom >= 0) { pLeft->xa = -pLeft->xa; pLeft->ya = -pLeft->ya; } else { pRight->xa = -pRight->xa; pRight->ya = -pRight->ya; } *y1 = miRoundJoinFace (pLeft, edge1, left1); *y2 = miRoundJoinFace (pRight, edge2, left2); } int miRoundCapClip (face, isInt, edge, leftEdge) register LineFacePtr face; Bool isInt; register PolyEdgePtr edge; Bool *leftEdge; { int y; register int dx, dy; double xa, ya, k; Bool left; dx = -face->dy; dy = face->dx; xa = face->xa; ya = face->ya; k = 0.0; if (!isInt) k = face->k; left = 1; if (dy < 0 || dy == 0 && dx > 0) { dx = -dx; dy = -dy; xa = -xa; ya = -ya; left = !left; } if (dx == 0 && dy == 0) dy = 1; if (dy == 0) { y = ICEIL (face->ya) + face->y; edge->x = -32767; edge->stepx = 0; edge->signdx = 0; edge->e = -1; edge->dy = 0; edge->dx = 0; edge->height = 0; } else { y = miPolyBuildEdge (xa, ya, k, dx, dy, face->x, face->y, !left, edge); edge->height = 32767; } *leftEdge = !left; return y; } static void miLineArc (pDraw, pGC, pixel, spanData, leftFace, rightFace, xorg, yorg, isInt) DrawablePtr pDraw; register GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; register LineFacePtr leftFace, rightFace; double xorg, yorg; Bool isInt; { DDXPointPtr points; int *widths; int xorgi = 0, yorgi = 0; XID oldPixel; Spans spanRec; int n; PolyEdgeRec edge1, edge2; int edgey1, edgey2; Bool edgeleft1, edgeleft2; if (isInt) { xorgi = leftFace ? leftFace->x : rightFace->x; yorgi = leftFace ? leftFace->y : rightFace->y; } edgey1 = 65536; edgey2 = 65536; edge1.x = 0; /* not used, keep memory checkers happy */ edge1.dy = -1; edge2.x = 0; /* not used, keep memory checkers happy */ edge2.dy = -1; edgeleft1 = FALSE; edgeleft2 = FALSE; if ((pGC->lineStyle != LineSolid || pGC->lineWidth > 2) && (pGC->capStyle == CapRound && pGC->joinStyle != JoinRound || pGC->joinStyle == JoinRound && pGC->capStyle == CapButt)) { if (isInt) { xorg = (double) xorgi; yorg = (double) yorgi; } if (leftFace && rightFace) { miRoundJoinClip (leftFace, rightFace, &edge1, &edge2, &edgey1, &edgey2, &edgeleft1, &edgeleft2); } else if (leftFace) { edgey1 = miRoundCapClip (leftFace, isInt, &edge1, &edgeleft1); } else if (rightFace) { edgey2 = miRoundCapClip (rightFace, isInt, &edge2, &edgeleft2); } isInt = FALSE; } if (!spanData) { points = (DDXPointPtr)ALLOCATE_LOCAL(sizeof(DDXPointRec) * pGC->lineWidth); if (!points) return; widths = (int *)ALLOCATE_LOCAL(sizeof(int) * pGC->lineWidth); if (!widths) { DEALLOCATE_LOCAL(points); return; } oldPixel = pGC->fgPixel; if (pixel != oldPixel) { DoChangeGC(pGC, GCForeground, (XID *)&pixel, FALSE); ValidateGC (pDraw, pGC); } } else { points = (DDXPointPtr) xalloc (pGC->lineWidth * sizeof (DDXPointRec)); if (!points) return; widths = (int *) xalloc (pGC->lineWidth * sizeof (int)); if (!widths) { xfree (points); return; } spanRec.points = points; spanRec.widths = widths; } if (isInt) n = miLineArcI(pDraw, pGC, xorgi, yorgi, points, widths); else n = miLineArcD(pDraw, pGC, xorg, yorg, points, widths, &edge1, edgey1, edgeleft1, &edge2, edgey2, edgeleft2); if (!spanData) { (*pGC->ops->FillSpans)(pDraw, pGC, n, points, widths, TRUE); DEALLOCATE_LOCAL(widths); DEALLOCATE_LOCAL(points); if (pixel != oldPixel) { DoChangeGC(pGC, GCForeground, &oldPixel, FALSE); ValidateGC (pDraw, pGC); } } else { spanRec.count = n; AppendSpanGroup (pGC, pixel, &spanRec, spanData) } } void miLineProjectingCap (pDrawable, pGC, pixel, spanData, face, isLeft, xorg, yorg, isInt) DrawablePtr pDrawable; register GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; register LineFacePtr face; Bool isLeft; double xorg, yorg; Bool isInt; { int xorgi = 0, yorgi = 0; int lw; PolyEdgeRec lefts[2], rights[2]; int lefty, righty, topy, bottomy; PolyEdgePtr left, right; PolyEdgePtr top, bottom; double xa,ya; double k; double xap, yap; int dx, dy; double projectXoff, projectYoff; double maxy; int finaly; if (isInt) { xorgi = face->x; yorgi = face->y; } lw = pGC->lineWidth; dx = face->dx; dy = face->dy; k = face->k; if (dy == 0) { lefts[0].height = lw; lefts[0].x = xorgi; if (isLeft) lefts[0].x -= (lw >> 1); lefts[0].stepx = 0; lefts[0].signdx = 1; lefts[0].e = -lw; lefts[0].dx = 0; lefts[0].dy = lw; rights[0].height = lw; rights[0].x = xorgi; if (!isLeft) rights[0].x += ((lw + 1) >> 1); rights[0].stepx = 0; rights[0].signdx = 1; rights[0].e = -lw; rights[0].dx = 0; rights[0].dy = lw; miFillPolyHelper (pDrawable, pGC, pixel, spanData, yorgi - (lw >> 1), lw, lefts, rights, 1, 1); } else if (dx == 0) { topy = yorgi; bottomy = yorgi + dy; if (isLeft) topy -= (lw >> 1); else bottomy += (lw >> 1); lefts[0].height = bottomy - topy; lefts[0].x = xorgi - (lw >> 1); lefts[0].stepx = 0; lefts[0].signdx = 1; lefts[0].e = -dy; lefts[0].dx = dx; lefts[0].dy = dy; rights[0].height = bottomy - topy; rights[0].x = lefts[0].x + (lw-1); rights[0].stepx = 0; rights[0].signdx = 1; rights[0].e = -dy; rights[0].dx = dx; rights[0].dy = dy; miFillPolyHelper (pDrawable, pGC, pixel, spanData, topy, bottomy - topy, lefts, rights, 1, 1); } else { xa = face->xa; ya = face->ya; projectXoff = -ya; projectYoff = xa; if (dx < 0) { right = &rights[1]; left = &lefts[0]; top = &rights[0]; bottom = &lefts[1]; } else { right = &rights[0]; left = &lefts[1]; top = &lefts[0]; bottom = &rights[1]; } if (isLeft) { righty = miPolyBuildEdge (xa, ya, k, dx, dy, xorgi, yorgi, 0, right); xa = -xa; ya = -ya; k = -k; lefty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff, k, dx, dy, xorgi, yorgi, 1, left); if (dx > 0) { ya = -ya; xa = -xa; } xap = xa - projectXoff; yap = ya - projectYoff; topy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy, -dy, dx, xorgi, yorgi, dx > 0, top); bottomy = miPolyBuildEdge (xa, ya, 0.0, -dy, dx, xorgi, yorgi, dx < 0, bottom); maxy = -ya; } else { righty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff, k, dx, dy, xorgi, yorgi, 0, right); xa = -xa; ya = -ya; k = -k; lefty = miPolyBuildEdge (xa, ya, k, dx, dy, xorgi, yorgi, 1, left); if (dx > 0) { ya = -ya; xa = -xa; } xap = xa - projectXoff; yap = ya - projectYoff; topy = miPolyBuildEdge (xa, ya, 0.0, -dy, dx, xorgi, xorgi, dx > 0, top); bottomy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy, -dy, dx, xorgi, xorgi, dx < 0, bottom); maxy = -ya + projectYoff; } finaly = ICEIL(maxy) + yorgi; if (dx < 0) { left->height = bottomy - lefty; right->height = finaly - righty; top->height = righty - topy; } else { right->height = bottomy - righty; left->height = finaly - lefty; top->height = lefty - topy; } bottom->height = finaly - bottomy; miFillPolyHelper (pDrawable, pGC, pixel, spanData, topy, bottom->height + bottomy - topy, lefts, rights, 2, 2); } } static void miWideSegment (pDrawable, pGC, pixel, spanData, x1, y1, x2, y2, projectLeft, projectRight, leftFace, rightFace) DrawablePtr pDrawable; GCPtr pGC; unsigned long pixel; SpanDataPtr spanData; register int x1, y1, x2, y2; Bool projectLeft, projectRight; register LineFacePtr leftFace, rightFace; { double l, L, r; double xa, ya; double projectXoff = 0.0, projectYoff = 0.0; double k; double maxy; int x, y; int dx, dy; int finaly; PolyEdgePtr left, right; PolyEdgePtr top, bottom; int lefty, righty, topy, bottomy; int signdx; PolyEdgeRec lefts[2], rights[2]; LineFacePtr tface; int lw = pGC->lineWidth; /* draw top-to-bottom always */ if (y2 < y1 || y2 == y1 && x2 < x1) { x = x1; x1 = x2; x2 = x; y = y1; y1 = y2; y2 = y; x = projectLeft; projectLeft = projectRight; projectRight = x; tface = leftFace; leftFace = rightFace; rightFace = tface; } dy = y2 - y1; signdx = 1; dx = x2 - x1; if (dx < 0) signdx = -1; leftFace->x = x1; leftFace->y = y1; leftFace->dx = dx; leftFace->dy = dy; rightFace->x = x2; rightFace->y = y2; rightFace->dx = -dx; rightFace->dy = -dy; if (dy == 0) { rightFace->xa = 0; rightFace->ya = (double) lw / 2.0; rightFace->k = -(double) (lw * dx) / 2.0; leftFace->xa = 0; leftFace->ya = -rightFace->ya; leftFace->k = rightFace->k; x = x1; if (projectLeft) x -= (lw >> 1); y = y1 - (lw >> 1); dx = x2 - x; if (projectRight) dx += ((lw + 1) >> 1); dy = lw; miFillRectPolyHelper (pDrawable, pGC, pixel, spanData, x, y, dx, dy); } else if (dx == 0) { leftFace->xa = (double) lw / 2.0; leftFace->ya = 0; leftFace->k = (double) (lw * dy) / 2.0; rightFace->xa = -leftFace->xa; rightFace->ya = 0; rightFace->k = leftFace->k; y = y1; if (projectLeft) y -= lw >> 1; x = x1 - (lw >> 1); dy = y2 - y; if (projectRight) dy += ((lw + 1) >> 1); dx = lw; miFillRectPolyHelper (pDrawable, pGC, pixel, spanData, x, y, dx, dy); } else { l = ((double) lw) / 2.0; L = hypot ((double) dx, (double) dy); if (dx < 0) { right = &rights[1]; left = &lefts[0]; top = &rights[0]; bottom = &lefts[1]; } else { right = &rights[0]; left = &lefts[1]; top = &lefts[0]; bottom = &rights[1]; } r = l / L; /* coord of upper bound at integral y */ ya = -r * dx; xa = r * dy; if (projectLeft | projectRight) { projectXoff = -ya; projectYoff = xa; } /* xa * dy - ya * dx */ k = l * L; leftFace->xa = xa; leftFace->ya = ya; leftFace->k = k; rightFace->xa = -xa; rightFace->ya = -ya; rightFace->k = k; if (projectLeft) righty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff, k, dx, dy, x1, y1, 0, right); else righty = miPolyBuildEdge (xa, ya, k, dx, dy, x1, y1, 0, right); /* coord of lower bound at integral y */ ya = -ya; xa = -xa; /* xa * dy - ya * dx */ k = - k; if (projectLeft) lefty = miPolyBuildEdge (xa - projectXoff, ya - projectYoff, k, dx, dy, x1, y1, 1, left); else lefty = miPolyBuildEdge (xa, ya, k, dx, dy, x1, y1, 1, left); /* coord of top face at integral y */ if (signdx > 0) { ya = -ya; xa = -xa; } if (projectLeft) { double xap = xa - projectXoff; double yap = ya - projectYoff; topy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy, -dy, dx, x1, y1, dx > 0, top); } else topy = miPolyBuildEdge (xa, ya, 0.0, -dy, dx, x1, y1, dx > 0, top); /* coord of bottom face at integral y */ if (projectRight) { double xap = xa + projectXoff; double yap = ya + projectYoff; bottomy = miPolyBuildEdge (xap, yap, xap * dx + yap * dy, -dy, dx, x2, y2, dx < 0, bottom); maxy = -ya + projectYoff; } else { bottomy = miPolyBuildEdge (xa, ya, 0.0, -dy, dx, x2, y2, dx < 0, bottom); maxy = -ya; } finaly = ICEIL (maxy) + y2; if (dx < 0) { left->height = bottomy - lefty; right->height = finaly - righty; top->height = righty - topy; } else { right->height = bottomy - righty; left->height = finaly - lefty; top->height = lefty - topy; } bottom->height = finaly - bottomy; miFillPolyHelper (pDrawable, pGC, pixel, spanData, topy, bottom->height + bottomy - topy, lefts, rights, 2, 2); } } SpanDataPtr miSetupSpanData (pGC, spanData, npt) register GCPtr pGC; SpanDataPtr spanData; int npt; { if (npt < 3 && pGC->capStyle != CapRound || miSpansEasyRop(pGC->alu)) return (SpanDataPtr) NULL; if (pGC->lineStyle == LineDoubleDash) miInitSpanGroup (&spanData->bgGroup); miInitSpanGroup (&spanData->fgGroup); return spanData; } void miCleanupSpanData (pDrawable, pGC, spanData) DrawablePtr pDrawable; GCPtr pGC; SpanDataPtr spanData; { if (pGC->lineStyle == LineDoubleDash) { XID oldPixel, pixel; pixel = pGC->bgPixel; oldPixel = pGC->fgPixel; if (pixel != oldPixel) { DoChangeGC (pGC, GCForeground, &pixel, FALSE); ValidateGC (pDrawable, pGC); } miFillUniqueSpanGroup (pDrawable, pGC, &spanData->bgGroup); miFreeSpanGroup (&spanData->bgGroup); if (pixel != oldPixel) { DoChangeGC (pGC, GCForeground, &oldPixel, FALSE); ValidateGC (pDrawable, pGC); } } miFillUniqueSpanGroup (pDrawable, pGC, &spanData->fgGroup); miFreeSpanGroup (&spanData->fgGroup); } void miWideLine (pDrawable, pGC, mode, npt, pPts) DrawablePtr pDrawable; register GCPtr pGC; int mode; register int npt; register DDXPointPtr pPts; { int x1, y1, x2, y2; SpanDataRec spanDataRec; SpanDataPtr spanData; unsigned long pixel; Bool projectLeft, projectRight; LineFaceRec leftFace, rightFace, prevRightFace; LineFaceRec firstFace; register int first; Bool somethingDrawn = FALSE; Bool selfJoin; spanData = miSetupSpanData (pGC, &spanDataRec, npt); pixel = pGC->fgPixel; x2 = pPts->x; y2 = pPts->y; first = TRUE; selfJoin = FALSE; if (npt > 1) { if (mode == CoordModePrevious) { int nptTmp; DDXPointPtr pPtsTmp; x1 = x2; y1 = y2; nptTmp = npt; pPtsTmp = pPts + 1; while (--nptTmp) { x1 += pPtsTmp->x; y1 += pPtsTmp->y; ++pPtsTmp; } if (x2 == x1 && y2 == y1) selfJoin = TRUE; } else if (x2 == pPts[npt-1].x && y2 == pPts[npt-1].y) { selfJoin = TRUE; } } projectLeft = pGC->capStyle == CapProjecting && !selfJoin; projectRight = FALSE; while (--npt) { x1 = x2; y1 = y2; ++pPts; x2 = pPts->x; y2 = pPts->y; if (mode == CoordModePrevious) { x2 += x1; y2 += y1; } if (x1 != x2 || y1 != y2) { somethingDrawn = TRUE; if (npt == 1 && pGC->capStyle == CapProjecting && !selfJoin) projectRight = TRUE; miWideSegment (pDrawable, pGC, pixel, spanData, x1, y1, x2, y2, projectLeft, projectRight, &leftFace, &rightFace); if (first) { if (selfJoin) firstFace = leftFace; else if (pGC->capStyle == CapRound) { if (pGC->lineWidth == 1 && !spanData) miLineOnePoint (pDrawable, pGC, pixel, spanData, x1, y1); else miLineArc (pDrawable, pGC, pixel, spanData, &leftFace, (LineFacePtr) NULL, (double)0.0, (double)0.0, TRUE); } } else { miLineJoin (pDrawable, pGC, pixel, spanData, &leftFace, &prevRightFace); } prevRightFace = rightFace; first = FALSE; projectLeft = FALSE; } if (npt == 1 && somethingDrawn) { if (selfJoin) miLineJoin (pDrawable, pGC, pixel, spanData, &firstFace, &rightFace); else if (pGC->capStyle == CapRound) { if (pGC->lineWidth == 1 && !spanData) miLineOnePoint (pDrawable, pGC, pixel, spanData, x2, y2); else miLineArc (pDrawable, pGC, pixel, spanData, (LineFacePtr) NULL, &rightFace, (double)0.0, (double)0.0, TRUE); } } } /* handle crock where all points are coincedent */ if (!somethingDrawn) { projectLeft = pGC->capStyle == CapProjecting; miWideSegment (pDrawable, pGC, pixel, spanData, x2, y2, x2, y2, projectLeft, projectLeft, &leftFace, &rightFace); if (pGC->capStyle == CapRound) { miLineArc (pDrawable, pGC, pixel, spanData, &leftFace, (LineFacePtr) NULL, (double)0.0, (double)0.0, TRUE); rightFace.dx = -1; /* sleezy hack to make it work */ miLineArc (pDrawable, pGC, pixel, spanData, (LineFacePtr) NULL, &rightFace, (double)0.0, (double)0.0, TRUE); } } if (spanData) miCleanupSpanData (pDrawable, pGC, spanData); } #define V_TOP 0 #define V_RIGHT 1 #define V_BOTTOM 2 #define V_LEFT 3 static void miWideDashSegment (pDrawable, pGC, spanData, pDashOffset, pDashIndex, x1, y1, x2, y2, projectLeft, projectRight, leftFace, rightFace) DrawablePtr pDrawable; register GCPtr pGC; int *pDashOffset, *pDashIndex; SpanDataPtr spanData; int x1, y1, x2, y2; Bool projectLeft, projectRight; LineFacePtr leftFace, rightFace; { int dashIndex, dashRemain; unsigned char *pDash; double L, l; double k; PolyVertexRec vertices[4]; PolyVertexRec saveRight, saveBottom; PolySlopeRec slopes[4]; PolyEdgeRec left[2], right[2]; LineFaceRec lcapFace, rcapFace; int nleft, nright; int h; int y; int dy, dx; unsigned long pixel; double LRemain; double r; double rdx, rdy; double dashDx, dashDy; double saveK = 0.0; Bool first = TRUE; double lcenterx, lcentery, rcenterx = 0.0, rcentery = 0.0; unsigned long fgPixel, bgPixel; dx = x2 - x1; dy = y2 - y1; dashIndex = *pDashIndex; pDash = pGC->dash; dashRemain = pDash[dashIndex] - *pDashOffset; fgPixel = pGC->fgPixel; bgPixel = pGC->bgPixel; if (pGC->fillStyle == FillOpaqueStippled || pGC->fillStyle == FillTiled) { bgPixel = fgPixel; } l = ((double) pGC->lineWidth) / 2.0; if (dx == 0) { L = dy; rdx = 0; rdy = l; if (dy < 0) { L = -dy; rdy = -l; } } else if (dy == 0) { L = dx; rdx = l; rdy = 0; if (dx < 0) { L = -dx; rdx = -l; } } else { L = hypot ((double) dx, (double) dy); r = l / L; rdx = r * dx; rdy = r * dy; } k = l * L; LRemain = L; /* All position comments are relative to a line with dx and dy > 0, * but the code does not depend on this */ /* top */ slopes[V_TOP].dx = dx; slopes[V_TOP].dy = dy; slopes[V_TOP].k = k; /* right */ slopes[V_RIGHT].dx = -dy; slopes[V_RIGHT].dy = dx; slopes[V_RIGHT].k = 0; /* bottom */ slopes[V_BOTTOM].dx = -dx; slopes[V_BOTTOM].dy = -dy; slopes[V_BOTTOM].k = k; /* left */ slopes[V_LEFT].dx = dy; slopes[V_LEFT].dy = -dx; slopes[V_LEFT].k = 0; /* preload the start coordinates */ vertices[V_RIGHT].x = vertices[V_TOP].x = rdy; vertices[V_RIGHT].y = vertices[V_TOP].y = -rdx; vertices[V_BOTTOM].x = vertices[V_LEFT].x = -rdy; vertices[V_BOTTOM].y = vertices[V_LEFT].y = rdx; if (projectLeft) { vertices[V_TOP].x -= rdx; vertices[V_TOP].y -= rdy; vertices[V_LEFT].x -= rdx; vertices[V_LEFT].y -= rdy; slopes[V_LEFT].k = rdx * dx + rdy * dy; } lcenterx = x1; lcentery = y1; if (pGC->capStyle == CapRound) { lcapFace.dx = dx; lcapFace.dy = dy; lcapFace.x = x1; lcapFace.y = y1; rcapFace.dx = -dx; rcapFace.dy = -dy; rcapFace.x = x1; rcapFace.y = y1; } while (LRemain > dashRemain) { dashDx = (dashRemain * dx) / L; dashDy = (dashRemain * dy) / L; rcenterx = lcenterx + dashDx; rcentery = lcentery + dashDy; vertices[V_RIGHT].x += dashDx; vertices[V_RIGHT].y += dashDy; vertices[V_BOTTOM].x += dashDx; vertices[V_BOTTOM].y += dashDy; slopes[V_RIGHT].k = vertices[V_RIGHT].x * dx + vertices[V_RIGHT].y * dy; if (pGC->lineStyle == LineDoubleDash || !(dashIndex & 1)) { if (pGC->lineStyle == LineOnOffDash && pGC->capStyle == CapProjecting) { saveRight = vertices[V_RIGHT]; saveBottom = vertices[V_BOTTOM]; saveK = slopes[V_RIGHT].k; if (!first) { vertices[V_TOP].x -= rdx; vertices[V_TOP].y -= rdy; vertices[V_LEFT].x -= rdx; vertices[V_LEFT].y -= rdy; slopes[V_LEFT].k = vertices[V_LEFT].x * slopes[V_LEFT].dy - vertices[V_LEFT].y * slopes[V_LEFT].dx; } vertices[V_RIGHT].x += rdx; vertices[V_RIGHT].y += rdy; vertices[V_BOTTOM].x += rdx; vertices[V_BOTTOM].y += rdy; slopes[V_RIGHT].k = vertices[V_RIGHT].x * slopes[V_RIGHT].dy - vertices[V_RIGHT].y * slopes[V_RIGHT].dx; } y = miPolyBuildPoly (vertices, slopes, 4, x1, y1, left, right, &nleft, &nright, &h); pixel = (dashIndex & 1) ? bgPixel : fgPixel; miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, h, left, right, nleft, nright); if (pGC->lineStyle == LineOnOffDash) { switch (pGC->capStyle) { case CapProjecting: vertices[V_BOTTOM] = saveBottom; vertices[V_RIGHT] = saveRight; slopes[V_RIGHT].k = saveK; break; case CapRound: if (!first) { if (dx < 0) { lcapFace.xa = -vertices[V_LEFT].x; lcapFace.ya = -vertices[V_LEFT].y; lcapFace.k = slopes[V_LEFT].k; } else { lcapFace.xa = vertices[V_TOP].x; lcapFace.ya = vertices[V_TOP].y; lcapFace.k = -slopes[V_LEFT].k; } miLineArc (pDrawable, pGC, pixel, spanData, &lcapFace, (LineFacePtr) NULL, lcenterx, lcentery, FALSE); } if (dx < 0) { rcapFace.xa = vertices[V_BOTTOM].x; rcapFace.ya = vertices[V_BOTTOM].y; rcapFace.k = slopes[V_RIGHT].k; } else { rcapFace.xa = -vertices[V_RIGHT].x; rcapFace.ya = -vertices[V_RIGHT].y; rcapFace.k = -slopes[V_RIGHT].k; } miLineArc (pDrawable, pGC, pixel, spanData, (LineFacePtr) NULL, &rcapFace, rcenterx, rcentery, FALSE); break; } } } LRemain -= dashRemain; ++dashIndex; if (dashIndex == pGC->numInDashList) dashIndex = 0; dashRemain = pDash[dashIndex]; lcenterx = rcenterx; lcentery = rcentery; vertices[V_TOP] = vertices[V_RIGHT]; vertices[V_LEFT] = vertices[V_BOTTOM]; slopes[V_LEFT].k = -slopes[V_RIGHT].k; first = FALSE; } if (pGC->lineStyle == LineDoubleDash || !(dashIndex & 1)) { vertices[V_TOP].x -= dx; vertices[V_TOP].y -= dy; vertices[V_LEFT].x -= dx; vertices[V_LEFT].y -= dy; vertices[V_RIGHT].x = rdy; vertices[V_RIGHT].y = -rdx; vertices[V_BOTTOM].x = -rdy; vertices[V_BOTTOM].y = rdx; if (projectRight) { vertices[V_RIGHT].x += rdx; vertices[V_RIGHT].y += rdy; vertices[V_BOTTOM].x += rdx; vertices[V_BOTTOM].y += rdy; slopes[V_RIGHT].k = vertices[V_RIGHT].x * slopes[V_RIGHT].dy - vertices[V_RIGHT].y * slopes[V_RIGHT].dx; } else slopes[V_RIGHT].k = 0; if (!first && pGC->lineStyle == LineOnOffDash && pGC->capStyle == CapProjecting) { vertices[V_TOP].x -= rdx; vertices[V_TOP].y -= rdy; vertices[V_LEFT].x -= rdx; vertices[V_LEFT].y -= rdy; slopes[V_LEFT].k = vertices[V_LEFT].x * slopes[V_LEFT].dy - vertices[V_LEFT].y * slopes[V_LEFT].dx; } else slopes[V_LEFT].k += dx * dx + dy * dy; y = miPolyBuildPoly (vertices, slopes, 4, x2, y2, left, right, &nleft, &nright, &h); pixel = (dashIndex & 1) ? pGC->bgPixel : pGC->fgPixel; miFillPolyHelper (pDrawable, pGC, pixel, spanData, y, h, left, right, nleft, nright); if (!first && pGC->lineStyle == LineOnOffDash && pGC->capStyle == CapRound) { lcapFace.x = x2; lcapFace.y = y2; if (dx < 0) { lcapFace.xa = -vertices[V_LEFT].x; lcapFace.ya = -vertices[V_LEFT].y; lcapFace.k = slopes[V_LEFT].k; } else { lcapFace.xa = vertices[V_TOP].x; lcapFace.ya = vertices[V_TOP].y; lcapFace.k = -slopes[V_LEFT].k; } miLineArc (pDrawable, pGC, pixel, spanData, &lcapFace, (LineFacePtr) NULL, rcenterx, rcentery, FALSE); } } dashRemain = ((double) dashRemain) - LRemain; if (dashRemain == 0) { dashIndex++; if (dashIndex == pGC->numInDashList) dashIndex = 0; dashRemain = pDash[dashIndex]; } leftFace->x = x1; leftFace->y = y1; leftFace->dx = dx; leftFace->dy = dy; leftFace->xa = rdy; leftFace->ya = -rdx; leftFace->k = k; rightFace->x = x2; rightFace->y = y2; rightFace->dx = -dx; rightFace->dy = -dy; rightFace->xa = -rdy; rightFace->ya = rdx; rightFace->k = k; *pDashIndex = dashIndex; *pDashOffset = pDash[dashIndex] - dashRemain; } void miWideDash (pDrawable, pGC, mode, npt, pPts) DrawablePtr pDrawable; register GCPtr pGC; int mode; register int npt; register DDXPointPtr pPts; { int x1, y1, x2, y2; unsigned long pixel; Bool projectLeft, projectRight; LineFaceRec leftFace, rightFace, prevRightFace; LineFaceRec firstFace; int first; int dashIndex, dashOffset; register int prevDashIndex; SpanDataRec spanDataRec; SpanDataPtr spanData; Bool somethingDrawn = FALSE; Bool selfJoin; Bool endIsFg = FALSE, startIsFg = FALSE; Bool firstIsFg = FALSE, prevIsFg = FALSE; /* XXX backward compatibility */ if (pGC->lineWidth == 0) { miZeroDashLine (pDrawable, pGC, mode, npt, pPts); return; } if (pGC->lineStyle == LineDoubleDash && (pGC->fillStyle == FillOpaqueStippled || pGC->fillStyle == FillTiled)) { miWideLine (pDrawable, pGC, mode, npt, pPts); return; } if (npt == 0) return; spanData = miSetupSpanData (pGC, &spanDataRec, npt); x2 = pPts->x; y2 = pPts->y; first = TRUE; selfJoin = FALSE; if (mode == CoordModePrevious) { int nptTmp; DDXPointPtr pPtsTmp; x1 = x2; y1 = y2; nptTmp = npt; pPtsTmp = pPts + 1; while (--nptTmp) { x1 += pPtsTmp->x; y1 += pPtsTmp->y; ++pPtsTmp; } if (x2 == x1 && y2 == y1) selfJoin = TRUE; } else if (x2 == pPts[npt-1].x && y2 == pPts[npt-1].y) { selfJoin = TRUE; } projectLeft = pGC->capStyle == CapProjecting && !selfJoin; projectRight = FALSE; dashIndex = 0; dashOffset = 0; miStepDash ((int)pGC->dashOffset, &dashIndex, pGC->dash, (int)pGC->numInDashList, &dashOffset); while (--npt) { x1 = x2; y1 = y2; ++pPts; x2 = pPts->x; y2 = pPts->y; if (mode == CoordModePrevious) { x2 += x1; y2 += y1; } if (x1 != x2 || y1 != y2) { somethingDrawn = TRUE; if (npt == 1 && pGC->capStyle == CapProjecting && (!selfJoin || !firstIsFg)) projectRight = TRUE; prevDashIndex = dashIndex; miWideDashSegment (pDrawable, pGC, spanData, &dashOffset, &dashIndex, x1, y1, x2, y2, projectLeft, projectRight, &leftFace, &rightFace); startIsFg = !(prevDashIndex & 1); endIsFg = (dashIndex & 1) ^ (dashOffset != 0); if (pGC->lineStyle == LineDoubleDash || startIsFg) { pixel = startIsFg ? pGC->fgPixel : pGC->bgPixel; if (first || (pGC->lineStyle == LineOnOffDash && !prevIsFg)) { if (first && selfJoin) { firstFace = leftFace; firstIsFg = startIsFg; } else if (pGC->capStyle == CapRound) miLineArc (pDrawable, pGC, pixel, spanData, &leftFace, (LineFacePtr) NULL, (double)0.0, (double)0.0, TRUE); } else { miLineJoin (pDrawable, pGC, pixel, spanData, &leftFace, &prevRightFace); } } prevRightFace = rightFace; prevIsFg = endIsFg; first = FALSE; projectLeft = FALSE; } if (npt == 1 && somethingDrawn) { if (pGC->lineStyle == LineDoubleDash || endIsFg) { pixel = endIsFg ? pGC->fgPixel : pGC->bgPixel; if (selfJoin && (pGC->lineStyle == LineDoubleDash || firstIsFg)) { miLineJoin (pDrawable, pGC, pixel, spanData, &firstFace, &rightFace); } else { if (pGC->capStyle == CapRound) miLineArc (pDrawable, pGC, pixel, spanData, (LineFacePtr) NULL, &rightFace, (double)0.0, (double)0.0, TRUE); } } else { /* glue a cap to the start of the line if * we're OnOffDash and ended on odd dash */ if (selfJoin && firstIsFg) { pixel = pGC->fgPixel; if (pGC->capStyle == CapProjecting) miLineProjectingCap (pDrawable, pGC, pixel, spanData, &firstFace, TRUE, (double)0.0, (double)0.0, TRUE); else if (pGC->capStyle == CapRound) miLineArc (pDrawable, pGC, pixel, spanData, &firstFace, (LineFacePtr) NULL, (double)0.0, (double)0.0, TRUE); } } } } /* handle crock where all points are coincident */ if (!somethingDrawn && (pGC->lineStyle == LineDoubleDash || !(dashIndex & 1))) { /* not the same as endIsFg computation above */ pixel = (dashIndex & 1) ? pGC->bgPixel : pGC->fgPixel; switch (pGC->capStyle) { case CapRound: miLineArc (pDrawable, pGC, pixel, spanData, (LineFacePtr) NULL, (LineFacePtr) NULL, (double)x2, (double)y2, FALSE); break; case CapProjecting: x1 = pGC->lineWidth; miFillRectPolyHelper (pDrawable, pGC, pixel, spanData, x2 - (x1 >> 1), y2 - (x1 >> 1), x1, x1); break; } } if (spanData) miCleanupSpanData (pDrawable, pGC, spanData); } /* these are stubs to allow old ddx ValidateGCs to work without change */ void miMiter() { } void miNotMiter() { }